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|
// -*- mode:C; tab-width:8; c-basic-offset:2; indent-tabs-mode:t -*-
// vim: ts=8 sw=2 smarttab
/**
* Server-side encryption integrations with Key Management Systems (SSE-KMS)
*/
#include <sys/stat.h>
#include "include/str_map.h"
#include "common/safe_io.h"
#include "rgw/rgw_crypt.h"
#include "rgw/rgw_keystone.h"
#include "rgw/rgw_b64.h"
#include "rgw/rgw_kms.h"
#include "rgw/rgw_kmip_client.h"
#include <rapidjson/allocators.h>
#include <rapidjson/document.h>
#include <rapidjson/writer.h>
#include "rapidjson/error/error.h"
#include "rapidjson/error/en.h"
#define dout_context g_ceph_context
#define dout_subsys ceph_subsys_rgw
using namespace rgw;
#ifndef FORTEST_VIRTUAL
#define FORTEST_VIRTUAL /**/
#endif
/**
* Memory pool for use with rapidjson. This version
* carefully zeros out all memory before returning it to
* the system.
*/
#define ALIGNTYPE double
#define MINCHUNKSIZE 4096
class ZeroPoolAllocator {
private:
struct element {
struct element *next;
int size;
char data[4];
} *b;
size_t left;
public:
static const bool kNeedFree { false };
ZeroPoolAllocator(){
b = 0;
left = 0;
}
~ZeroPoolAllocator(){
element *p;
while ((p = b)) {
b = p->next;
memset(p->data, 0, p->size);
free(p);
}
}
void * Malloc(size_t size) {
void *r;
if (!size) return 0;
size = (size + sizeof(ALIGNTYPE)-1)&(-sizeof(ALIGNTYPE));
if (size > left) {
size_t ns { size };
if (ns < MINCHUNKSIZE) ns = MINCHUNKSIZE;
element *nw { (element *) malloc(sizeof *b + ns) };
if (!nw) {
// std::cerr << "out of memory" << std::endl;
return 0;
}
left = ns - sizeof *b;
nw->size = ns;
nw->next = b;
b = nw;
}
left -= size;
r = static_cast<void*>(b->data + left);
return r;
}
void* Realloc(void* p, size_t old, size_t nw) {
void *r;
if (nw) r = malloc(nw);
if (nw > old) nw = old;
if (r && old) memcpy(r, p, nw);
return r;
}
static void Free(void *p) {
ceph_assert(0 == "Free should not be called");
}
private:
//! Copy constructor is not permitted.
ZeroPoolAllocator(const ZeroPoolAllocator& rhs) /* = delete */;
//! Copy assignment operator is not permitted.
ZeroPoolAllocator& operator=(const ZeroPoolAllocator& rhs) /* = delete */;
};
typedef rapidjson::GenericDocument<rapidjson::UTF8<>,
ZeroPoolAllocator,
rapidjson::CrtAllocator
> ZeroPoolDocument;
typedef rapidjson::GenericValue<rapidjson::UTF8<>, ZeroPoolAllocator> ZeroPoolValue;
/**
* Construct a full URL string by concatenating a "base" URL with another path,
* ensuring there is one and only one forward slash between them. If path is
* empty, the URL is not changed.
*/
static void concat_url(std::string &url, std::string path) {
bool url_has_slash = !url.empty() && url.back() == '/';
if (!path.empty()) {
if (url_has_slash && path.front() == '/') {
url.pop_back();
} else if (!url_has_slash && path.front() != '/') {
url.push_back('/');
}
url.append(path);
}
}
/**
* Determine if a string (url) ends with a given suffix.
* Must deal with (ignore) trailing slashes.
*/
static bool string_ends_maybe_slash(std::string_view hay,
std::string_view needle)
{
auto hay_len { hay.size() };
auto needle_len { needle.size() };
if (hay_len < needle_len) return false;
auto hay_suffix_start { hay.data() + (hay_len - needle_len) };
while (hay_len > needle_len && hay[hay_len-1] == '/') {
--hay_len;
--hay_suffix_start;
}
std::string_view hay_suffix { hay_suffix_start, needle_len };
return hay_suffix == needle;
}
template<typename E, typename A = ZeroPoolAllocator>
static inline void
add_name_val_to_obj(std::string &n, std::string &v, rapidjson::GenericValue<E,A> &d,
A &allocator)
{
rapidjson::GenericValue<E,A> name, val;
name.SetString(n.c_str(), n.length(), allocator);
val.SetString(v.c_str(), v.length(), allocator);
d.AddMember(name, val, allocator);
}
template<typename E, typename A = ZeroPoolAllocator>
static inline void
add_name_val_to_obj(const char *n, std::string &v, rapidjson::GenericValue<E,A> &d,
A &allocator)
{
std::string ns{n, strlen(n) };
add_name_val_to_obj(ns, v, d, allocator);
}
typedef std::map<std::string, std::string> EngineParmMap;
class VaultSecretEngine: public SecretEngine {
protected:
CephContext *cct;
int load_token_from_file(std::string *vault_token)
{
int res = 0;
std::string token_file = cct->_conf->rgw_crypt_vault_token_file;
if (token_file.empty()) {
ldout(cct, 0) << "ERROR: Vault token file not set in rgw_crypt_vault_token_file" << dendl;
return -EINVAL;
}
ldout(cct, 20) << "Vault token file: " << token_file << dendl;
struct stat token_st;
if (stat(token_file.c_str(), &token_st) != 0) {
ldout(cct, 0) << "ERROR: Vault token file '" << token_file << "' not found " << dendl;
return -ENOENT;
}
if (token_st.st_mode & (S_IRWXG | S_IRWXO)) {
ldout(cct, 0) << "ERROR: Vault token file '" << token_file << "' permissions are "
<< "too open, it must not be accessible by other users" << dendl;
return -EACCES;
}
char buf[2048];
res = safe_read_file("", token_file.c_str(), buf, sizeof(buf));
if (res < 0) {
if (-EACCES == res) {
ldout(cct, 0) << "ERROR: Permission denied reading Vault token file" << dendl;
} else {
ldout(cct, 0) << "ERROR: Failed to read Vault token file with error " << res << dendl;
}
return res;
}
// drop trailing newlines
while (res && isspace(buf[res-1])) {
--res;
}
vault_token->assign(std::string{buf, static_cast<size_t>(res)});
memset(buf, 0, sizeof(buf));
::ceph::crypto::zeroize_for_security(buf, sizeof(buf));
return res;
}
FORTEST_VIRTUAL
int send_request(const char *method, std::string_view infix,
std::string_view key_id,
const std::string& postdata,
bufferlist &secret_bl)
{
int res;
string vault_token = "";
if (RGW_SSE_KMS_VAULT_AUTH_TOKEN == cct->_conf->rgw_crypt_vault_auth){
ldout(cct, 0) << "Loading Vault Token from filesystem" << dendl;
res = load_token_from_file(&vault_token);
if (res < 0){
return res;
}
}
std::string secret_url = cct->_conf->rgw_crypt_vault_addr;
if (secret_url.empty()) {
ldout(cct, 0) << "ERROR: Vault address not set in rgw_crypt_vault_addr" << dendl;
return -EINVAL;
}
concat_url(secret_url, cct->_conf->rgw_crypt_vault_prefix);
concat_url(secret_url, std::string(infix));
concat_url(secret_url, std::string(key_id));
RGWHTTPTransceiver secret_req(cct, method, secret_url, &secret_bl);
if (postdata.length()) {
secret_req.set_post_data(postdata);
secret_req.set_send_length(postdata.length());
}
secret_req.append_header("X-Vault-Token", vault_token);
if (!vault_token.empty()){
secret_req.append_header("X-Vault-Token", vault_token);
vault_token.replace(0, vault_token.length(), vault_token.length(), '\000');
}
string vault_namespace = cct->_conf->rgw_crypt_vault_namespace;
if (!vault_namespace.empty()){
ldout(cct, 20) << "Vault Namespace: " << vault_namespace << dendl;
secret_req.append_header("X-Vault-Namespace", vault_namespace);
}
secret_req.set_verify_ssl(cct->_conf->rgw_crypt_vault_verify_ssl);
if (!cct->_conf->rgw_crypt_vault_ssl_cacert.empty()) {
secret_req.set_ca_path(cct->_conf->rgw_crypt_vault_ssl_cacert);
}
if (!cct->_conf->rgw_crypt_vault_ssl_clientcert.empty()) {
secret_req.set_client_cert(cct->_conf->rgw_crypt_vault_ssl_clientcert);
}
if (!cct->_conf->rgw_crypt_vault_ssl_clientkey.empty()) {
secret_req.set_client_key(cct->_conf->rgw_crypt_vault_ssl_clientkey);
}
res = secret_req.process(null_yield);
if (res < 0) {
ldout(cct, 0) << "ERROR: Request to Vault failed with error " << res << dendl;
return res;
}
if (secret_req.get_http_status() ==
RGWHTTPTransceiver::HTTP_STATUS_UNAUTHORIZED) {
ldout(cct, 0) << "ERROR: Vault request failed authorization" << dendl;
return -EACCES;
}
ldout(cct, 20) << "Request to Vault returned " << res << " and HTTP status "
<< secret_req.get_http_status() << dendl;
return res;
}
int send_request(std::string_view key_id, bufferlist &secret_bl)
{
return send_request("GET", "", key_id, string{}, secret_bl);
}
int decode_secret(std::string encoded, std::string& actual_key){
try {
actual_key = from_base64(encoded);
} catch (std::exception&) {
ldout(cct, 0) << "ERROR: Failed to base64 decode key retrieved from Vault" << dendl;
return -EINVAL;
}
memset(encoded.data(), 0, encoded.length());
return 0;
}
public:
VaultSecretEngine(CephContext *cct) {
this->cct = cct;
}
};
class TransitSecretEngine: public VaultSecretEngine {
public:
int compat;
static const int COMPAT_NEW_ONLY = 0;
static const int COMPAT_OLD_AND_NEW = 1;
static const int COMPAT_ONLY_OLD = 2;
static const int COMPAT_UNSET = -1;
private:
EngineParmMap parms;
int get_key_version(std::string_view key_id, string& version)
{
size_t pos = 0;
pos = key_id.rfind("/");
if (pos != std::string_view::npos){
std::string_view token = key_id.substr(pos+1, key_id.length()-pos);
if (!token.empty() && token.find_first_not_of("0123456789") == std::string_view::npos){
version.assign(std::string(token));
return 0;
}
}
return -1;
}
public:
TransitSecretEngine(CephContext *cct, EngineParmMap parms): VaultSecretEngine(cct), parms(parms) {
compat = COMPAT_UNSET;
for (auto& e: parms) {
if (e.first == "compat") {
if (e.second.empty()) {
compat = COMPAT_OLD_AND_NEW;
} else {
size_t ep;
compat = std::stoi(e.second, &ep);
if (ep != e.second.length()) {
lderr(cct) << "warning: vault transit secrets engine : compat="
<< e.second << " trailing junk? (ignored)" << dendl;
}
}
continue;
}
lderr(cct) << "ERROR: vault transit secrets engine : parameter "
<< e.first << "=" << e.second << " ignored" << dendl;
}
if (compat == COMPAT_UNSET) {
std::string_view v { cct->_conf->rgw_crypt_vault_prefix };
if (string_ends_maybe_slash(v,"/export/encryption-key")) {
compat = COMPAT_ONLY_OLD;
} else {
compat = COMPAT_NEW_ONLY;
}
}
}
int get_key(std::string_view key_id, std::string& actual_key)
{
ZeroPoolDocument d;
ZeroPoolValue *v;
string version;
bufferlist secret_bl;
if (get_key_version(key_id, version) < 0){
ldout(cct, 20) << "Missing or invalid key version" << dendl;
return -EINVAL;
}
int res = send_request("GET", compat == COMPAT_ONLY_OLD ? "" : "/export/encryption-key",
key_id, string{}, secret_bl);
if (res < 0) {
return res;
}
ldout(cct, 20) << "Parse response into JSON Object" << dendl;
secret_bl.append('\0');
rapidjson::StringStream isw(secret_bl.c_str());
d.ParseStream<>(isw);
if (d.HasParseError()) {
ldout(cct, 0) << "ERROR: Failed to parse JSON response from Vault: "
<< rapidjson::GetParseError_En(d.GetParseError()) << dendl;
return -EINVAL;
}
secret_bl.zero();
const char *elements[] = {"data", "keys", version.c_str()};
v = &d;
for (auto &elem: elements) {
if (!v->IsObject()) {
v = nullptr;
break;
}
auto endr { v->MemberEnd() };
auto itr { v->FindMember(elem) };
if (itr == endr) {
v = nullptr;
break;
}
v = &itr->value;
}
if (!v || !v->IsString()) {
ldout(cct, 0) << "ERROR: Key not found in JSON response from Vault using Transit Engine" << dendl;
return -EINVAL;
}
return decode_secret(v->GetString(), actual_key);
}
int make_actual_key(map<string, bufferlist>& attrs, std::string& actual_key)
{
std::string key_id = get_str_attribute(attrs, RGW_ATTR_CRYPT_KEYID);
if (compat == COMPAT_ONLY_OLD) return get_key(key_id, actual_key);
if (key_id.find("/") != std::string::npos) {
ldout(cct, 0) << "sorry, can't allow / in keyid" << dendl;
return -EINVAL;
}
/*
data: {context }
post to prefix + /datakey/plaintext/ + key_id
jq: .data.plaintext -> key
jq: .data.ciphertext -> (to-be) named attribute
return decode_secret(json_obj, actual_key)
*/
std::string context = get_str_attribute(attrs, RGW_ATTR_CRYPT_CONTEXT);
ZeroPoolDocument d { rapidjson::kObjectType };
auto &allocator { d.GetAllocator() };
bufferlist secret_bl;
add_name_val_to_obj("context", context, d, allocator);
rapidjson::StringBuffer buf;
rapidjson::Writer<rapidjson::StringBuffer> writer(buf);
if (!d.Accept(writer)) {
ldout(cct, 0) << "ERROR: can't make json for vault" << dendl;
return -EINVAL;
}
std::string post_data { buf.GetString() };
int res = send_request("POST", "/datakey/plaintext/", key_id,
post_data, secret_bl);
if (res < 0) {
return res;
}
ldout(cct, 20) << "Parse response into JSON Object" << dendl;
secret_bl.append('\0');
rapidjson::StringStream isw(secret_bl.c_str());
d.SetNull();
d.ParseStream<>(isw);
if (d.HasParseError()) {
ldout(cct, 0) << "ERROR: Failed to parse JSON response from Vault: "
<< rapidjson::GetParseError_En(d.GetParseError()) << dendl;
return -EINVAL;
}
secret_bl.zero();
if (!d.IsObject()) {
ldout(cct, 0) << "ERROR: response from Vault is not an object" << dendl;
return -EINVAL;
}
{
auto data_itr { d.FindMember("data") };
if (data_itr == d.MemberEnd()) {
ldout(cct, 0) << "ERROR: no .data in response from Vault" << dendl;
return -EINVAL;
}
auto ciphertext_itr { data_itr->value.FindMember("ciphertext") };
auto plaintext_itr { data_itr->value.FindMember("plaintext") };
if (ciphertext_itr == data_itr->value.MemberEnd()) {
ldout(cct, 0) << "ERROR: no .data.ciphertext in response from Vault" << dendl;
return -EINVAL;
}
if (plaintext_itr == data_itr->value.MemberEnd()) {
ldout(cct, 0) << "ERROR: no .data.plaintext in response from Vault" << dendl;
return -EINVAL;
}
auto &ciphertext_v { ciphertext_itr->value };
auto &plaintext_v { plaintext_itr->value };
if (!ciphertext_v.IsString()) {
ldout(cct, 0) << "ERROR: .data.ciphertext not a string in response from Vault" << dendl;
return -EINVAL;
}
if (!plaintext_v.IsString()) {
ldout(cct, 0) << "ERROR: .data.plaintext not a string in response from Vault" << dendl;
return -EINVAL;
}
set_attr(attrs, RGW_ATTR_CRYPT_DATAKEY, ciphertext_v.GetString());
return decode_secret(plaintext_v.GetString(), actual_key);
}
}
int reconstitute_actual_key(map<string, bufferlist>& attrs, std::string& actual_key)
{
std::string key_id = get_str_attribute(attrs, RGW_ATTR_CRYPT_KEYID);
std::string wrapped_key = get_str_attribute(attrs, RGW_ATTR_CRYPT_DATAKEY);
if (compat == COMPAT_ONLY_OLD || key_id.rfind("/") != std::string::npos) {
return get_key(key_id, actual_key);
}
/*
.data.ciphertext <- (to-be) named attribute
data: {context ciphertext}
post to prefix + /decrypt/ + key_id
jq: .data.plaintext
return decode_secret(json_obj, actual_key)
*/
std::string context = get_str_attribute(attrs, RGW_ATTR_CRYPT_CONTEXT);
ZeroPoolDocument d { rapidjson::kObjectType };
auto &allocator { d.GetAllocator() };
bufferlist secret_bl;
add_name_val_to_obj("context", context, d, allocator);
add_name_val_to_obj("ciphertext", wrapped_key, d, allocator);
rapidjson::StringBuffer buf;
rapidjson::Writer<rapidjson::StringBuffer> writer(buf);
if (!d.Accept(writer)) {
ldout(cct, 0) << "ERROR: can't make json for vault" << dendl;
return -EINVAL;
}
std::string post_data { buf.GetString() };
int res = send_request("POST", "/decrypt/", key_id,
post_data, secret_bl);
if (res < 0) {
return res;
}
ldout(cct, 20) << "Parse response into JSON Object" << dendl;
secret_bl.append('\0');
rapidjson::StringStream isw(secret_bl.c_str());
d.SetNull();
d.ParseStream<>(isw);
if (d.HasParseError()) {
ldout(cct, 0) << "ERROR: Failed to parse JSON response from Vault: "
<< rapidjson::GetParseError_En(d.GetParseError()) << dendl;
return -EINVAL;
}
secret_bl.zero();
if (!d.IsObject()) {
ldout(cct, 0) << "ERROR: response from Vault is not an object" << dendl;
return -EINVAL;
}
{
auto data_itr { d.FindMember("data") };
if (data_itr == d.MemberEnd()) {
ldout(cct, 0) << "ERROR: no .data in response from Vault" << dendl;
return -EINVAL;
}
auto plaintext_itr { data_itr->value.FindMember("plaintext") };
if (plaintext_itr == data_itr->value.MemberEnd()) {
ldout(cct, 0) << "ERROR: no .data.plaintext in response from Vault" << dendl;
return -EINVAL;
}
auto &plaintext_v { plaintext_itr->value };
if (!plaintext_v.IsString()) {
ldout(cct, 0) << "ERROR: .data.plaintext not a string in response from Vault" << dendl;
return -EINVAL;
}
return decode_secret(plaintext_v.GetString(), actual_key);
}
}
};
class KvSecretEngine: public VaultSecretEngine {
public:
KvSecretEngine(CephContext *cct, EngineParmMap parms): VaultSecretEngine(cct){
if (!parms.empty()) {
lderr(cct) << "ERROR: vault kv secrets engine takes no parameters (ignoring them)" << dendl;
}
}
virtual ~KvSecretEngine(){}
int get_key(std::string_view key_id, std::string& actual_key){
ZeroPoolDocument d;
ZeroPoolValue *v;
bufferlist secret_bl;
int res = send_request(key_id, secret_bl);
if (res < 0) {
return res;
}
ldout(cct, 20) << "Parse response into JSON Object" << dendl;
secret_bl.append('\0');
rapidjson::StringStream isw(secret_bl.c_str());
d.ParseStream<>(isw);
if (d.HasParseError()) {
ldout(cct, 0) << "ERROR: Failed to parse JSON response from Vault: "
<< rapidjson::GetParseError_En(d.GetParseError()) << dendl;
return -EINVAL;
}
secret_bl.zero();
static const char *elements[] = {"data", "data", "key"};
v = &d;
for (auto &elem: elements) {
if (!v->IsObject()) {
v = nullptr;
break;
}
auto endr { v->MemberEnd() };
auto itr { v->FindMember(elem) };
if (itr == endr) {
v = nullptr;
break;
}
v = &itr->value;
}
if (!v || !v->IsString()) {
ldout(cct, 0) << "ERROR: Key not found in JSON response from Vault using KV Engine" << dendl;
return -EINVAL;
}
return decode_secret(v->GetString(), actual_key);
}
};
class KmipSecretEngine;
class KmipGetTheKey {
private:
CephContext *cct;
std::string work;
bool failed = false;
int ret;
protected:
KmipGetTheKey(CephContext *cct) : cct(cct) {}
KmipGetTheKey& keyid_to_keyname(std::string_view key_id);
KmipGetTheKey& get_uniqueid_for_keyname();
int get_key_for_uniqueid(std::string &);
friend KmipSecretEngine;
};
KmipGetTheKey&
KmipGetTheKey::keyid_to_keyname(std::string_view key_id)
{
work = cct->_conf->rgw_crypt_kmip_kms_key_template;
std::string keyword = "$keyid";
std::string replacement = std::string(key_id);
size_t pos = 0;
if (work.length() == 0) {
work = std::move(replacement);
} else {
while (pos < work.length()) {
pos = work.find(keyword, pos);
if (pos == std::string::npos) break;
work.replace(pos, keyword.length(), replacement);
pos += key_id.length();
}
}
return *this;
}
KmipGetTheKey&
KmipGetTheKey::get_uniqueid_for_keyname()
{
RGWKMIPTransceiver secret_req(cct, RGWKMIPTransceiver::LOCATE);
secret_req.name = work.data();
ret = secret_req.process(null_yield);
if (ret < 0) {
failed = true;
} else if (!secret_req.outlist->string_count) {
ret = -ENOENT;
lderr(cct) << "error: locate returned no results for "
<< secret_req.name << dendl;
failed = true;
} else if (secret_req.outlist->string_count != 1) {
ret = -EINVAL;
lderr(cct) << "error: locate found "
<< secret_req.outlist->string_count
<< " results for " << secret_req.name << dendl;
failed = true;
} else {
work = std::string(secret_req.outlist->strings[0]);
}
return *this;
}
int
KmipGetTheKey::get_key_for_uniqueid(std::string& actual_key)
{
if (failed) return ret;
RGWKMIPTransceiver secret_req(cct, RGWKMIPTransceiver::GET);
secret_req.unique_id = work.data();
ret = secret_req.process(null_yield);
if (ret < 0) {
failed = true;
} else {
actual_key = std::string((char*)(secret_req.outkey->data),
secret_req.outkey->keylen);
}
return ret;
}
class KmipSecretEngine: public SecretEngine {
protected:
CephContext *cct;
public:
KmipSecretEngine(CephContext *cct) {
this->cct = cct;
}
int get_key(std::string_view key_id, std::string& actual_key)
{
int r;
r = KmipGetTheKey{cct}
.keyid_to_keyname(key_id)
.get_uniqueid_for_keyname()
.get_key_for_uniqueid(actual_key);
return r;
}
};
static map<string,string> get_str_map(const string &str) {
map<string,string> m;
get_str_map(str, &m, ";, \t");
return m;
}
static int get_actual_key_from_conf(CephContext *cct,
std::string_view key_id,
std::string_view key_selector,
std::string& actual_key)
{
int res = 0;
static map<string,string> str_map = get_str_map(
cct->_conf->rgw_crypt_s3_kms_encryption_keys);
map<string, string>::iterator it = str_map.find(std::string(key_id));
if (it == str_map.end())
return -ERR_INVALID_ACCESS_KEY;
std::string master_key;
try {
master_key = from_base64((*it).second);
} catch (std::exception&) {
ldout(cct, 5) << "ERROR: get_actual_key_from_conf invalid encryption key id "
<< "which contains character that is not base64 encoded."
<< dendl;
return -EINVAL;
}
if (master_key.length() == AES_256_KEYSIZE) {
uint8_t _actual_key[AES_256_KEYSIZE];
if (AES_256_ECB_encrypt(cct,
reinterpret_cast<const uint8_t*>(master_key.c_str()), AES_256_KEYSIZE,
reinterpret_cast<const uint8_t*>(key_selector.data()),
_actual_key, AES_256_KEYSIZE)) {
actual_key = std::string((char*)&_actual_key[0], AES_256_KEYSIZE);
} else {
res = -EIO;
}
::ceph::crypto::zeroize_for_security(_actual_key, sizeof(_actual_key));
} else {
ldout(cct, 20) << "Wrong size for key=" << key_id << dendl;
res = -EIO;
}
return res;
}
static int request_key_from_barbican(CephContext *cct,
std::string_view key_id,
const std::string& barbican_token,
std::string& actual_key) {
int res;
std::string secret_url = cct->_conf->rgw_barbican_url;
if (secret_url.empty()) {
ldout(cct, 0) << "ERROR: conf rgw_barbican_url is not set" << dendl;
return -EINVAL;
}
concat_url(secret_url, "/v1/secrets/");
concat_url(secret_url, std::string(key_id));
bufferlist secret_bl;
RGWHTTPTransceiver secret_req(cct, "GET", secret_url, &secret_bl);
secret_req.append_header("Accept", "application/octet-stream");
secret_req.append_header("X-Auth-Token", barbican_token);
res = secret_req.process(null_yield);
if (res < 0) {
return res;
}
if (secret_req.get_http_status() ==
RGWHTTPTransceiver::HTTP_STATUS_UNAUTHORIZED) {
return -EACCES;
}
if (secret_req.get_http_status() >=200 &&
secret_req.get_http_status() < 300 &&
secret_bl.length() == AES_256_KEYSIZE) {
actual_key.assign(secret_bl.c_str(), secret_bl.length());
secret_bl.zero();
} else {
res = -EACCES;
}
return res;
}
static int get_actual_key_from_barbican(CephContext *cct,
std::string_view key_id,
std::string& actual_key)
{
int res = 0;
std::string token;
if (rgw::keystone::Service::get_keystone_barbican_token(cct, token) < 0) {
ldout(cct, 5) << "Failed to retrieve token for Barbican" << dendl;
return -EINVAL;
}
res = request_key_from_barbican(cct, key_id, token, actual_key);
if (res != 0) {
ldout(cct, 5) << "Failed to retrieve secret from Barbican:" << key_id << dendl;
}
return res;
}
std::string config_to_engine_and_parms(CephContext *cct,
const char* which,
std::string& secret_engine_str,
EngineParmMap& secret_engine_parms)
{
std::ostringstream oss;
std::vector<std::string> secret_engine_v;
std::string secret_engine;
get_str_vec(secret_engine_str, " ", secret_engine_v);
cct->_conf.early_expand_meta(secret_engine_str, &oss);
auto meta_errors {oss.str()};
if (meta_errors.length()) {
meta_errors.erase(meta_errors.find_last_not_of("\n")+1);
lderr(cct) << "ERROR: while expanding " << which << ": "
<< meta_errors << dendl;
}
for (auto& e: secret_engine_v) {
if (!secret_engine.length()) {
secret_engine = std::move(e);
continue;
}
auto p { e.find('=') };
if (p == std::string::npos) {
secret_engine_parms.emplace(std::move(e), "");
continue;
}
std::string key{ e.substr(0,p) };
std::string val{ e.substr(p+1) };
secret_engine_parms.emplace(std::move(key), std::move(val));
}
return secret_engine;
}
static int get_actual_key_from_vault(CephContext *cct,
map<string, bufferlist>& attrs,
std::string& actual_key, bool make_it)
{
std::string secret_engine_str = cct->_conf->rgw_crypt_vault_secret_engine;
EngineParmMap secret_engine_parms;
auto secret_engine { config_to_engine_and_parms(
cct, "rgw_crypt_vault_secret_engine",
secret_engine_str, secret_engine_parms) };
ldout(cct, 20) << "Vault authentication method: " << cct->_conf->rgw_crypt_vault_auth << dendl;
ldout(cct, 20) << "Vault Secrets Engine: " << secret_engine << dendl;
if (RGW_SSE_KMS_VAULT_SE_KV == secret_engine){
std::string key_id = get_str_attribute(attrs, RGW_ATTR_CRYPT_KEYID);
KvSecretEngine engine(cct, std::move(secret_engine_parms));
return engine.get_key(key_id, actual_key);
}
else if (RGW_SSE_KMS_VAULT_SE_TRANSIT == secret_engine){
TransitSecretEngine engine(cct, std::move(secret_engine_parms));
std::string key_id = get_str_attribute(attrs, RGW_ATTR_CRYPT_KEYID);
return make_it
? engine.make_actual_key(attrs, actual_key)
: engine.reconstitute_actual_key(attrs, actual_key);
}
else {
ldout(cct, 0) << "Missing or invalid secret engine" << dendl;
return -EINVAL;
}
}
static int make_actual_key_from_vault(CephContext *cct,
map<string, bufferlist>& attrs,
std::string& actual_key)
{
return get_actual_key_from_vault(cct, attrs, actual_key, true);
}
static int reconstitute_actual_key_from_vault(CephContext *cct,
map<string, bufferlist>& attrs,
std::string& actual_key)
{
return get_actual_key_from_vault(cct, attrs, actual_key, false);
}
static int get_actual_key_from_kmip(CephContext *cct,
std::string_view key_id,
std::string& actual_key)
{
std::string secret_engine = RGW_SSE_KMS_KMIP_SE_KV;
if (RGW_SSE_KMS_KMIP_SE_KV == secret_engine){
KmipSecretEngine engine(cct);
return engine.get_key(key_id, actual_key);
}
else{
ldout(cct, 0) << "Missing or invalid secret engine" << dendl;
return -EINVAL;
}
}
int reconstitute_actual_key_from_kms(CephContext *cct,
map<string, bufferlist>& attrs,
std::string& actual_key)
{
std::string key_id = get_str_attribute(attrs, RGW_ATTR_CRYPT_KEYID);
std::string kms_backend { cct->_conf->rgw_crypt_s3_kms_backend };
ldout(cct, 20) << "Getting KMS encryption key for key " << key_id << dendl;
ldout(cct, 20) << "SSE-KMS backend is " << kms_backend << dendl;
if (RGW_SSE_KMS_BACKEND_BARBICAN == kms_backend) {
return get_actual_key_from_barbican(cct, key_id, actual_key);
}
if (RGW_SSE_KMS_BACKEND_VAULT == kms_backend) {
return reconstitute_actual_key_from_vault(cct, attrs, actual_key);
}
if (RGW_SSE_KMS_BACKEND_KMIP == kms_backend) {
return get_actual_key_from_kmip(cct, key_id, actual_key);
}
if (RGW_SSE_KMS_BACKEND_TESTING == kms_backend) {
std::string key_selector = get_str_attribute(attrs, RGW_ATTR_CRYPT_KEYSEL);
return get_actual_key_from_conf(cct, key_id, key_selector, actual_key);
}
ldout(cct, 0) << "ERROR: Invalid rgw_crypt_s3_kms_backend: " << kms_backend << dendl;
return -EINVAL;
}
int make_actual_key_from_kms(CephContext *cct,
map<string, bufferlist>& attrs,
std::string& actual_key)
{
std::string kms_backend { cct->_conf->rgw_crypt_s3_kms_backend };
if (RGW_SSE_KMS_BACKEND_VAULT == kms_backend)
return make_actual_key_from_vault(cct, attrs, actual_key);
return reconstitute_actual_key_from_kms(cct, attrs, actual_key);
}
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